Journal Article10.1016/j.jmapro.2023.01.034
A systematic review of additive manufacturing-based remanufacturing techniques for component repair and restoration
K. Kanishka,Bappa Acherjee +1 more
114
TL;DR: A comprehensive analysis of the foundational principles and prospective applications of additive manufacturing technology for product restoration and repair can be found in this paper , where the primary goal is to consolidate the discrete information to present a comprehensive picture of the worldwide scenario for the advancement and use of AM-based repair and restoration in remanufacturing applications.
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About: This article is published in Journal of Manufacturing Processes. The article was published on 01 Mar 2023. The article focuses on the topics: Remanufacturing & Component (thermodynamics).
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Citations
Revolutionizing manufacturing: A comprehensive overview of additive manufacturing processes, materials, developments, and challenges
Kumar Kanishka,Bappa Acherjee +1 more
TL;DR: This paper provides a comprehensive overview of additive manufacturing (AM) processes, materials, developments, and challenges, highlighting its significance in the fourth industrial revolution, applications, current advances, and future prospects, while also addressing inherent limitations and sustainability concerns.
86
A vision for sustainable additive manufacturing
Serena Graziosi,Jeremy Faludi,Tino Stanković,Yuri Borgianni,Nicholas A. Meisel,Sophie I. Hallstedt,David W. Rosen +6 more
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Surface modification of grey cast iron by laser cladding for automotive brake disc application
Abhinav Manoj,Ashish Saurabh,Suresh Kumar Reddy Narala,P. Saravanan,Harshad Natu,Piyush Chandra Verma +5 more
TL;DR: Laser cladding of AISI 4140, SS420, and Stellite 6 alloys on grey cast iron improved surface hardness and reduced wear rate, with AISI 4140 exhibiting the most wear resistance, followed by SS420 and Stellite 6, under dry-sliding conditions.
21
Microstructural evolution and precipitated phase characteristics in the fusion zone for the as-repaired Inconel 718 alloy by directed energy deposition additive manufacturing
TL;DR: Directed energy deposition additive manufacturing of Inconel 718 alloy reveals microstructural evolution and precipitated phase characteristics in the fusion zone, influenced by laser power and thermal cycles, affecting Laves phase morphology and precipitation of γ′′, γ′, and δ phases.
18
Progress in additive manufacturing, additive repair and fatigue evaluation of aviation titanium alloy blades
Lingfeng Wang,Yinghong Li,Lian Zhou,Yanshan Lou,Shijie Liu,Deyou Zheng,Min Yi +6 more
TL;DR: The fatigue evaluation of additive manufactured titanium alloy blades for aviation applications requires rigorous testing, evaluation, and certification. Extensive research has been conducted on AM process, characterization, and fatigue evaluation of titanium alloy, but there is a lack of comprehensive reviews on fatigue evaluation methods used for AM aero-engine blades.
15
References
Repair of Damaged Mold Surface by Cold-Spray Method☆
TL;DR: In this article, a mold repair technique at low temperature was developed by applying cold-spray deposition, where aluminum particles were deposited on top of the damaged aluminum mold and the original mold surface was recovered by milling the deposited material.
Laser-based Hybrid System for Inconel 718 part repairing
TL;DR: In this article, the restoration of damaged Inconel 718 parts has been accomplished through a laser-based hybrid technology, which was equipped with a laser metal deposition head for material deposition and a nanosecond ablation laser scanner for both worn surface preparation and post-deposition surface finishing.